Post on 14-Mar-2020
© 2014 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 1
Computer Networking: Beyond Routing & Switching Series
Welcome Everyone!• Session 1 was Network Security & Cybersecurity
• Session 2 was Intro to Data Centers
• Session 3: Going Wireless – Wireless Communications and Technologies
All session recordings and presentations can be found here
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Internet of Everything Webinar Series
TOPICIoE & Smart Connected Industries
DATE January 28th, 9:00 AM PST
Register Here
More IoE recordings can be found here.
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• Session 2: Security in the Cloud
10 December, 8:00 A.M. Pacific Standard Time , Register Here
• Session 3: Open Stack—what is it? Connecting ACI to Open Stack
26 January, 8:00 A.M. Pacific Standard Time, Register Here
• Session 1 – What is the Cloud? How will it affect my network and I? – recoding and presentation can be found here.
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Upcoming Sessions
• Discovering the Magic of Teamwork
6 January, 2016 – 9:00 PM PST, Register Here
• How to Communicate Effectively With Body Language
3 February, 2016 – 9:00 PM PST, Register Here
• Browse all previous on-demand sessions here
Wireless FundamentalEric Kwok
Technical Manager, GC+JP
Networking Academy
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1. Why is Wireless More and More important?
2. Wireless Technologies
3. Wireless Standards – 802.11 a/b/g/n
4. The new kid on the block – 802.11ac
5. NetAcad Courses
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Wi-Fi laptop
I can use Wi-Fi in
the meeting room,
but I lose signal if I
move away
Wired Phone
I heard that some
phones have Wi-Fi
capabilities, but where
would I use them?
Everything else is wired
© 2015 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 1010
Multi Wi-Fi
Like most people, I
have 2 or 3 Wi-Fi
devices
More Applications
I rely on Wi-Fi for critical
applications… and do
not see why video is so
slow…
I get Wi-Fi from home,
the office, most public
places, some streets
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Far Reaching Wi-Fi
I get Wi-Fi from
almost everywhere
More Applications
Everyone uses Wi-Fi…
for almost everything
802.11ac
802.11n
Everything uses Wi-Fi…
Everything?
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802.11ac -> 802.11ad
Your media server can stream
to your TV, your laptop, your
phone, your tablet… multiple
streams everywhere in the
house
12
802.11ah – Wireless for IoT
Wi-Fi is used to monitor your
electricity, gas meters, industrial
sensors (wind-mills etc.),
hospital remote patients vitals,
etc.
12
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TIME
Source: *ABI Research, **IDC, *** Morgan Stanley Market Trends
• In 2020 there will be 50 billion connected devices
• Smartphone & Tablet adoption growing 70%+ annually.**
•In 2014, more than 60% of network devices shipped
without a wired port.***
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• In 1970, the University of Hawaii developed the first wireless network, called ALOHAnet
• 400 MHz frequency range
• IEEE ratified the original 802.11 standard (1997) -2Mbps
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• The International Telecommunication Union Radiocommunication Sector (ITU-R) and Federal Communications Commission (FCC) - regulate frequencies, power levels, and transmission methods
• Institute of Electrical and Electronics Engineers (IEEE) -Standard and compatibility between equipment
• Wi-Fi Alliance – Certification testing for wireless equipment
• International Organization for Standardization (ISO) – OSI 7 layers for data communication
• Internet Engineering Task Force (IETF) - creating Internet standards (RFC)
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• http://www.wi-fi.org/product-finder
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• http://standards.ieee.org/about/get/802/802.11.html
• Download the standard document (PDF)
• http://www.ieee802.org/11/
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• PAN/WPAN (Personal Area Network)
Bluetooth, IEEE 802.15.4
• LAN (Local Area Network)
IEEE 802.11
• MAN (Metropolitan Area Network)
IEEE 802.11, IEEE 802.16, IEEE 802.20
• WAN (Wide Area Network)
GSM, CDMA, Satelite
• http://www.ieee.org/index.html
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• Wireless technologies use electromagnetic waves
• What types of communication mediums do we have in wired networks?
Coper, Fiber
• What communication medium do we have in wireless?
The Earth’s Athmosphere
21
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• Frequency (f - Hz)
Frequency is the number of occurrences of a repeating event per unit time.
• Higher frequency:
Greater speed
Shorter range
High reflection rate
Higher absorption in the Earth’s atmosphere
Higher costs
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• Physical layer is radio frequency (RF) communications.
• Wired vs Wireless
travel across the bounded medium contains or confines the signal.
travel across the unbounded medium.
• Absorption
• Reflection
• Scattering
• Refraction
• Diffraction
• Loss (attenuation)
• Free space path loss
• Multipath
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AbsorptionScattering
Reflection
Refraction
Diffraction Multipath
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• ISM – Industrial Scientific Medical
Free to transmit
http://en.wikipedia.org/wiki/ISM_band
• 2.4GHz and 5 GHz bands
• Disadvantage:
They are very occupied
The frequencies are high
902-928MHz
2.401-2.483GHz
3 KHz 3 GHz 3 THz
5.470-5.725GHz
Radiowaves Microwaves
5.725-5.850 GHz
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• Analog modulation: AM, FM, PM etc
• Digital modulation: ASK, APSK, QAM-64 etc
• Encoding digital data into wireless signals (OFDM)
• Higher bandwidth requires higher modulation techniques
• Spread Spectrum: DSSS, FHSS, OFDM
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FHSS
DSSS
OFDM
channel
channel
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Amplitude, Frequency, Phase
BPSK
(1bit)QPSK
(2 bits)
QAM-16
(4 bits)
QAM-64
(6 bits)
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• The wireless transmition medium is shared
• It is not possible to transmit in the exact same frequency without collisions
• How many Hz do we need to transmit 54 Mbps in 802.11g?
Answer: 22 Mhz
• Solution: we could split the ISM band into channels and map each WLAN/SSID on a single channel, thus having multiple networks in the same band
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1 6 11
1 2 3 4 5 6 7 8
9 10 11 12 13 14 15 16 17 18 19
20 21 22 23 24
2.4 GHz
5 GHz
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It is possible to cover any surface using just 3 channels
Channel
1
Channel
1
Channel
6
Channel
11
Channel
11
Channel
11
Channel
1
Channel
6
Channel
6
Channel6
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• Legacy – released in 1997
• Specified in infrared and wireless
• Spread Spectrum – FHSS/DSSS
• Speed: 1-2 Mbps
• Frequency: 2.4 Ghz and 900 Mhz
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• Both standards appeared about the same time - 1999
• 802.11a
Introduces OFDM and takes speed up to 54 Mbps
Frequency band: 5 GHz
Distance to transmit signal: 25m
• 802.11b
Bandwidth: 11 Mbps
Frequency band: 2.4 GHz
Became very popular – called WiFi
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• Standardized in 2003
• Best of both worlds (a & b)
• Frequency band: 2.4 GHz
• Bandwidth: 54 Mbps
• Modulation: OFDM
• Used for a long time and can still be found in networks
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• 802.11n – standardized 29 October 2009
• Far greater speeds: theoretical maximum 600 Mbps
• Better coverage and density of the signal
• Backwards compatible with 802.11 a/b/g
• Uses multiple antenaes and MIMO technology
• Increased channel width to 40 Mhz
• Improved imunity to noise using complex modulation techniques
• Support packet aggregation (one header for multiple data packets)
38
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• MIMO uses DSP processors to multiplex and demultiplex the signal
39
radio
radio
radio
DSP
radio
radio
radio
DSP
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• The multipath effect = the process in which many waves carrying the same informationare reflected differently from surfaces and with varying clarity
• In 802.11g, the DSP chose the wave with the best signal to noise ratio
Although I receive multiple waves, I am going to chose the one with the best quality and interpret it
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• Problem description: some weaker SNR waves are ignored even if there is the possibility that they contain relevant information
• In 802.11n, MRC is implemented in the NIC’s DSP so that it takes all the waves and composes just one high-quality wave, thus increasing throughput
• Concluding:
MRC is a client-side technology
If you have an 802.11n board in a 802.11g network, you will have higher-than-ordinary through
It’s like having a cat with multiple ears
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• How to Increase Speed Without Making it Impossibly Difficult?
Increase channel width… beyond 40 MHz
Increase number of spatial streams… more than 4
Improve the modulation? Is 64-QAM the best we can do?
Better manage the cell
5 Ghz band – in 2015 it’s the perfect thing to have
Cost does not vary with freq anymore
It’s not as populated as 2.4
It’s a bigger space
Why would only one device send at a time?
If we can have one device send 3 streams at the same time on the same frequency, why not have 3 devices send 1 stream at the same time on the same frequency instead?
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• MU-MIMO
45
2 clients can receive signals at the same time, on the same frequency
Each client has a dedicated spatial stream
No collisions anymore
“Full-duplex” becomes possible
“123”
“abc”MIMO AP
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• Beyond the 1 Gbps Bar
160 MHz-wide channel width…
Up to 160 MHz for APs
80 MHz for stations, 160 MHz optional
More spatial streams
Up to 8 spatial streams
8 radio circuits sending or receiving
Better modulation
QAM-256 (8 bits per symbol vs. 6 bits for QAM-64)Up to 4 times faster
46
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MCSModulati
onRatio 20 MHz channel 40 MHz channel 80 MHz channel 160 MHz channel
800 ns GI
400 ns GI
800 ns GI
400 ns GI
800 ns GI
400 ns GI
800 ns GI
400 ns GI
0 BPSK 1/2 6.5 7.2 13.5 15 29.3 32.5 58.5 65
1 QPSK 1/2 13 14.4 27 30 58.5 65 117 130
2 QPSK 3/4 19.5 21.7 40.5 45 87.8 97.5 175.5 195
3 16-QAM 1/2 26 28.9 54 60 117 130 234 260
4 16-QAM 3/4 39 43.3 81 90 175.5 195 351 390
5 64-QAM 2/3 52 57.8 108 120 234 260 468 520
6 64-QAM 3/4 58.5 65 121.5 135 263.3 292.5 526.5 585
7 64-QAM 5/6 65 72.2 135 150 292.5 325 585 650
8 256-QAM 3/4 78 86.7 162 180 351 390 702 780
9 256-QAM 5/6 N/A N/A 180 200 390 433.3 780 866.7
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• Better Modulation - DSSS > QFDM
• Better Modulation Coding – BPSK > QPSK > 16QAM > 64QAM > 256QAM
• Wider Channel – 20 > 40 > 80 > 160MHz
• More Spatial Stream (more radio chains) – MIMO (1SS, 2SS, 4SS, 8SS)
• Optimization - MRC, BeamForming, Short GI, Frame Aggreation
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Series OverviewStarting with Wireless Technology Standards,
the Mobility Fundamentals series teaches
students about wireless and mobility
technologies in the Internet of Everything.
Topics covered in these instructor-developed
courses include wireless LAN design and
mobility applications.
Learning Components
• Several modules of multimedia content
• Video recordings featuring NetAcad instructors
• Activities that reinforce learning, including Cisco Packet Tracer activities
• Assessments, including module quizzes
• Certificates of completion for each module
Career PrepBuilds foundational wireless and mobility technology career skills for current IT Essentials or CCNA R&S
students interested in learning more about the Internet of Everything.
Prerequisites: IT Essentials or CCNA R&S 1-2
Languages: English
Course Delivery: Self paced
Estimated Time to Complete: 1.5 hour (each course)
Recommended Next Course: Mobility Fundamentals
Series: Wireless LAN Networks (next in the Mobility
Series coming in October)
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In this module, Bogdan Doinea brings the audience through the evolution of the wireless communications; and explains the technologies and standards that have enabled the mobile phenomenon that tremendously impacted on the way we work, learn and play today.
• Learning Outcome
• Understand Wireless Technologies
• Understand Wireless LAN Standards
• 1.5 hour content / video recording
• Quiz
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In this module, we look at the most important, popular and commonly used Wireless network today: the Wireless LAN. Vinh Ho and Eric Kwok explains the essential components in a Wireless LAN infrastructure, the operation of a Wireless LAN and how to plan a Wireless LAN.
• Learning Outcome
• Understand Wireless LAN components
• Understand how Wireless LAN works
• Understand how to plan a Wireless LAN deployment
• 1 hour content / video recording
• Quiz
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• Go to netacad.com
• Click Learn with Us
• karsulli@cisco.com
Thank you.